410fb7ee43
* Add more rules to deal with Japanese UD mappings Japanese UD rules sometimes give different UD tags to tokens with the same underlying POS tag. The UD spec indicates these cases should be disambiguated using the output of a tool called "comainu", but rules are enough to get the right result. These rules are taken from Ginza at time of writing, see #3756. * Add new tags from GSD This is a few rare tags that aren't in Unidic but are in the GSD data. * Add basic Japanese sentencization This code is taken from Ginza again. * Add sentenceizer quote handling Could probably add more paired characters but this will do for now. Also includes some tests. * Replace fugashi with SudachiPy * Modify tag format to match GSD annotations Some of the tests still need to be updated, but I want to get this up for testing training. * Deal with case with closing punct without opening * refactor resolve_pos() * change tag field separator from "," to "-" * add TAG_ORTH_MAP * add TAG_BIGRAM_MAP * revise rules for 連体詞 * revise rules for 連体詞 * improve POS about 2% * add syntax_iterator.py (not mature yet) * improve syntax_iterators.py * improve syntax_iterators.py * add phrases including nouns and drop NPs consist of STOP_WORDS * First take at noun chunks This works in many situations but still has issues in others. If the start of a subtree has no noun, then nested phrases can be generated. また行きたい、そんな気持ちにさせてくれるお店です。 [そんな気持ち, また行きたい、そんな気持ちにさせてくれるお店] For some reason て gets included sometimes. Not sure why. ゲンに連れ添って円盤生物を調査するパートナーとなる。 [て円盤生物, ...] Some phrases that look like they should be split are grouped together; not entirely sure that's wrong. This whole thing becomes one chunk: 道の駅遠山郷北側からかぐら大橋南詰現道交点までの1.060kmのみ開通済み * Use new generic get_words_and_spaces The new get_words_and_spaces function is simpler than what was used in Japanese, so it's good to be able to switch to it. However, there was an issue. The new function works just on text, so POS info could get out of sync. Fixing this required a small change to the way dtokens (tokens with POS and lemma info) were generated. Specifically, multiple extraneous spaces now become a single token, so when generating dtokens multiple space tokens should be created in a row. * Fix noun_chunks, should be working now * Fix some tests, add naughty strings tests Some of the existing tests changed because the tokenization mode of Sudachi changed to the more fine-grained A mode. Sudachi also has issues with some strings, so this adds a test against the naughty strings. * Remove empty Sudachi tokens Not doing this creates zero-length tokens and causes errors in the internal spaCy processing. * Add yield_bunsetu back in as a separate piece of code Co-authored-by: Hiroshi Matsuda <40782025+hiroshi-matsuda-rit@users.noreply.github.com> Co-authored-by: hiroshi <hiroshi_matsuda@megagon.ai> |
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|---|---|---|
| .. | ||
| doc | ||
| lang | ||
| matcher | ||
| morphology | ||
| parser | ||
| pipeline | ||
| regression | ||
| serialize | ||
| tokenizer | ||
| vocab_vectors | ||
| __init__.py | ||
| conftest.py | ||
| README.md | ||
| test_architectures.py | ||
| test_cli.py | ||
| test_displacy.py | ||
| test_errors.py | ||
| test_gold.py | ||
| test_json_schemas.py | ||
| test_language.py | ||
| test_lemmatizer.py | ||
| test_misc.py | ||
| test_pickles.py | ||
| test_scorer.py | ||
| test_tok2vec.py | ||
| util.py | ||
spaCy tests
spaCy uses the pytest framework for testing. For more info on this, see the pytest documentation.
Tests for spaCy modules and classes live in their own directories of the same name. For example, tests for the Tokenizer can be found in /tests/tokenizer. All test modules (i.e. directories) also need to be listed in spaCy's setup.py. To be interpreted and run, all test files and test functions need to be prefixed with test_.
⚠️ Important note: As part of our new model training infrastructure, we've moved all model tests to the
spacy-modelsrepository. This allows us to test the models separately from the core library functionality.
Table of contents
- Running the tests
- Dos and don'ts
- Parameters
- Fixtures
- Helpers and utilities
- Contributing to the tests
Running the tests
To show print statements, run the tests with py.test -s. To abort after the
first failure, run them with py.test -x.
py.test spacy # run basic tests
py.test spacy --slow # run basic and slow tests
You can also run tests in a specific file or directory, or even only one specific test:
py.test spacy/tests/tokenizer # run all tests in directory
py.test spacy/tests/tokenizer/test_exceptions.py # run all tests in file
py.test spacy/tests/tokenizer/test_exceptions.py::test_tokenizer_handles_emoji # run specific test
Dos and don'ts
To keep the behaviour of the tests consistent and predictable, we try to follow a few basic conventions:
- Test names should follow a pattern of
test_[module]_[tested behaviour]. For example:test_tokenizer_keeps_emailortest_spans_override_sentiment. - If you're testing for a bug reported in a specific issue, always create a regression test. Regression tests should be named
test_issue[ISSUE NUMBER]and live in theregressiondirectory. - Only use
@pytest.mark.xfailfor tests that should pass, but currently fail. To test for desired negative behaviour, useassert notin your test. - Very extensive tests that take a long time to run should be marked with
@pytest.mark.slow. If your slow test is testing important behaviour, consider adding an additional simpler version. - If tests require loading the models, they should be added to the
spacy-modelstests. - Before requiring the models, always make sure there is no other way to test the particular behaviour. In a lot of cases, it's sufficient to simply create a
Docobject manually. See the section on helpers and utility functions for more info on this. - Avoid unnecessary imports. There should never be a need to explicitly import spaCy at the top of a file, and many components are available as fixtures. You should also avoid wildcard imports (
from module import *). - If you're importing from spaCy, always use absolute imports. For example:
from spacy.language import Language. - Don't forget the unicode declarations at the top of each file. This way, unicode strings won't have to be prefixed with
u. - Try to keep the tests readable and concise. Use clear and descriptive variable names (
doc,tokensandtextare great), keep it short and only test for one behaviour at a time.
Parameters
If the test cases can be extracted from the test, always parametrize them instead of hard-coding them into the test:
@pytest.mark.parametrize('text', ["google.com", "spacy.io"])
def test_tokenizer_keep_urls(tokenizer, text):
tokens = tokenizer(text)
assert len(tokens) == 1
This will run the test once for each text value. Even if you're only testing one example, it's usually best to specify it as a parameter. This will later make it easier for others to quickly add additional test cases without having to modify the test.
You can also specify parameters as tuples to test with multiple values per test:
@pytest.mark.parametrize('text,length', [("U.S.", 1), ("us.", 2), ("(U.S.", 2)])
To test for combinations of parameters, you can add several parametrize markers:
@pytest.mark.parametrize('text', ["A test sentence", "Another sentence"])
@pytest.mark.parametrize('punct', ['.', '!', '?'])
This will run the test with all combinations of the two parameters text and punct. Use this feature sparingly, though, as it can easily cause unneccessary or undesired test bloat.
Fixtures
Fixtures to create instances of spaCy objects and other components should only be defined once in the global conftest.py. We avoid having per-directory conftest files, as this can easily lead to confusion.
These are the main fixtures that are currently available:
| Fixture | Description |
|---|---|
tokenizer |
Basic, language-independent tokenizer. Identical to the xx language class. |
en_tokenizer, de_tokenizer, ... |
Creates an English, German etc. tokenizer. |
en_vocab |
Creates an instance of the English Vocab. |
The fixtures can be used in all tests by simply setting them as an argument, like this:
def test_module_do_something(en_tokenizer):
tokens = en_tokenizer("Some text here")
If all tests in a file require a specific configuration, or use the same complex example, it can be helpful to create a separate fixture. This fixture should be added at the top of each file. Make sure to use descriptive names for these fixtures and don't override any of the global fixtures listed above. From looking at a test, it should immediately be clear which fixtures are used, and where they are coming from.
Helpers and utilities
Our new test setup comes with a few handy utility functions that can be imported from util.py.
Constructing a Doc object manually with get_doc()
Loading the models is expensive and not necessary if you're not actually testing the model performance. If all you need ia a Doc object with annotations like heads, POS tags or the dependency parse, you can use get_doc() to construct it manually.
def test_doc_token_api_strings(en_tokenizer):
text = "Give it back! He pleaded."
pos = ['VERB', 'PRON', 'PART', 'PUNCT', 'PRON', 'VERB', 'PUNCT']
heads = [0, -1, -2, -3, 1, 0, -1]
deps = ['ROOT', 'dobj', 'prt', 'punct', 'nsubj', 'ROOT', 'punct']
tokens = en_tokenizer(text)
doc = get_doc(tokens.vocab, [t.text for t in tokens], pos=pos, heads=heads, deps=deps)
assert doc[0].text == 'Give'
assert doc[0].lower_ == 'give'
assert doc[0].pos_ == 'VERB'
assert doc[0].dep_ == 'ROOT'
You can construct a Doc with the following arguments:
| Argument | Description |
|---|---|
vocab |
Vocab instance to use. If you're tokenizing before creating a Doc, make sure to use the tokenizer's vocab. Otherwise, you can also use the en_vocab fixture. (required) |
words |
List of words, for example [t.text for t in tokens]. (required) |
heads |
List of heads as integers. |
pos |
List of POS tags as text values. |
tag |
List of tag names as text values. |
dep |
List of dependencies as text values. |
ents |
List of entity tuples with start, end, label (for example (0, 2, 'PERSON')). The label will be looked up in vocab.strings[label]. |
Here's how to quickly get these values from within spaCy:
doc = nlp(u'Some text here')
print([token.head.i-token.i for token in doc])
print([token.tag_ for token in doc])
print([token.pos_ for token in doc])
print([token.dep_ for token in doc])
print([(ent.start, ent.end, ent.label_) for ent in doc.ents])
Note: There's currently no way of setting the serializer data for the parser without loading the models. If this is relevant to your test, constructing the Doc via get_doc() won't work.
Other utilities
| Name | Description |
|---|---|
apply_transition_sequence(parser, doc, sequence) |
Perform a series of pre-specified transitions, to put the parser in a desired state. |
add_vecs_to_vocab(vocab, vectors) |
Add list of vector tuples ([("text", [1, 2, 3])]) to given vocab. All vectors need to have the same length. |
get_cosine(vec1, vec2) |
Get cosine for two given vectors. |
assert_docs_equal(doc1, doc2) |
Compare two Doc objects and assert that they're equal. Tests for tokens, tags, dependencies and entities. |
Contributing to the tests
There's still a long way to go to finally reach 100% test coverage – and we'd appreciate your help! 🙌 You can open an issue on our issue tracker and label it tests, or make a pull request to this repository.
📖 For more information on contributing to spaCy in general, check out our contribution guidelines.